DE102009050139A1 - Slings and load lifting system for use with such a sling - Google Patents

Abstract

A stop means (1) with an anchor part (5) which has an anchoring shaft (7) which can be or is connected to a load (41) to be moved and a contact part (3) separated from the load (41), wherein between the anchor part (5 ) and the system part (3) a support part (11) is arranged, which is separated from the system part (3) at a predetermined distance by a neck part (13) and in the state fixed to the load (41) is attached to a fixing surface (17) the load (41), the contact part (3) having a transmission surface (25) for the engagement of a carrier surface (47) on a carrier housing (45) of the lifting means (37), which is at least partially convex or has a convexly curved envelope Has circumscribed surface areas, is characterized in that the support part (11) has a support surface (29) on its upper side, which is opposite the fixing surface (17) and points in the direction of the neck part (13), onto which, when the Lifting means (37), in which the pulling direction deviates from the longitudinal axis (9) of the anchor part (5) by a predetermined angular amount, an active surface (63) of the attacking lifting means (37) exerts a supporting force which is at least partially over the on the outside of the Load (41) adjacent securing surface (17) of the support part (11) is introduced into the load (41).

Description

The invention relates to a stop means having a connectable to a moving load or connected anchor member and a remote from the load plant part, wherein between the anchor member and the plant part, a support member is arranged, which is separated from the plant part with a predetermined distance via a neck portion and in the state fixed to the load is supported with a fixing surface on the load, wherein the contact part for the attack of a support surface on a support housing of a lifting device has a transfer surface having at least partially convex or circumscribed by a convex envelope area areas.

Slings of this type are known, see. the document GB 2 261 651 A , Such slinging agents are preferably used in load lifting systems for handling heavyweight slab or cuboid loads, especially precast concrete components. An advantage of such a stop means is that the handling is simple and convenient, because the entanglement for attaching a lifting means on the stop means by gripping the part of the system is carried by a support surface on the lifting means. Measures such as the operation of screws or the like omitted. Thus, entanglement and Enthakung can accomplish in a similar convenient manner, as is the case when attaching or unhooking hooks of cranes or similar hoists on Anhängeösen the loads to be manipulated.

Another advantage of such a stop means with a plant part in the manner of a spheroid, for example in the form of a smooth ball or hemisphere, is that with suspended lifting means a free rotation of the carrier housing on the system part in all directions within a certain angular range is possible. Thus it can be worked without difficulty under a certain diagonal pull. Difficulties arise, however, in such cases in which angular deviations of the tensile direction with respect to the longitudinal axis of the anchor part of the stop means exceed a certain extent.

In view of this problem, the invention has the object to improve a stop means of the type considered to the extent that a reliable operation is made possible under considerable diagonal pull of the lifting device.

According to the invention this object is achieved by a stop means having the features of claim 1 in its entirety.

According to the characterizing part of claim 1, a significant feature of the invention is that the support member, which is supported with its locking surface on the load, on its the mounting surface opposite top has a support surface on which an effective surface of the attacking lifting device in cases to rest reaches, in which the pulling direction deviates from the longitudinal axis of the anchor member by an angular amount exceeding a predetermined angle amount. While in "normal" Zugrichtungen the ball joint-like rotatability of the support housing is retained around the spherical transfer surface on the abutment part of the stop means, it comes with an extreme diagonal pull to a load of the neck portion of the stop means diminishing and thus increasing the safety support of the carrier housing, one of the attacking Lifting means applied supporting force can be introduced via the voltage applied to the outside of the load locking surface of the support member in the load.

Preferably, the anchor part of the stop means on an attachable to the load, preferably screwed to the load anchoring shaft. Alternatively, the stop means could be welded without anchoring shank with an optionally metallic load.

In particularly advantageous embodiments, the arrangement can be made such that the support part of the stop means has the shape of a radial expansion at the end of the anchoring shaft forming federal whose adjacent to the anchoring shaft underside forms the defining a radial plane locking surface. Such a design not only allows effective support, because the locking surface on the outside of the load from the longitudinal axis may have a radial distance corresponding to the entire diameter of the collar, but the outer circumference of the collar may also be a cooperation with a rotary tool enabling design , such as external hexagon or the like, obtained, so that the screwing of the stop means with the load is made possible in a simple manner.

In particularly preferred embodiments, the support surface has at the top of the collar in the radially outer edge region of the federal transitional convex curvature, followed by a radially inwardly concave curvature, which merges into the same direction curvature of the neck portion. This results in a particularly effective supporting action on the supporting surface of the federal government.

In a particularly advantageous manner, in this case, the arrangement can be made such that the adjoining the support surface concave Curvature forms an axial recess in the top of the collar, which is located between the neck portion and the contrast, upstanding, radially outer edge region.

According to claim 6, the subject of the invention is also a load lifting system for use with a stop means according to one of claims 1 to 5, wherein the lifting means comprises a carrier housing in which the contact part and an adjacent thereto part of the neck portion of the stop means are receivable and the On the inside concavely curved surface parts, which form the support surface for the interaction with the transfer surface on the contact part of the stop means.

In this case, the carrier housing having a receiving space which surrounds the state of entanglement with the stop means parts of the system part and the neck part.

With particular advantage, the arrangement can be made in this case that the support housing on wall parts of the receiving space which partially embrace the contact part of the stop means when Verhakungszustand forms the support surface and in an end wall an opening and in a bottom part of a slot for the introduction of the system part and of the neck portion leaves free, wherein at the edge portion adjacent to the bottom portion of the opening opposite rear wall of the support housing provided for cooperation with the support surface of the support member of the stop means effective surface is formed.

The arrangement can be made with particular advantage in this case so that the active surface having the rear wall of the support housing in an arcuately curved course surrounds a part of the recorded system part and ends in a slot of the bottom part of the support housing rear limiting edge, with one of the curvature of the support surface adapted to the covenant of the plant part curvature forms the effective surface.

With regard to the positional relationship between the active surface and the support surface, the arrangement may be such that the rear wall terminates at a distance from the bottom part of the carrier housing, wherein the active surface is located at a distance from the support surface of the federal government in the direction of the longitudinal axis of the anchor member extending tensile direction and is applied to the support surface at a pulling direction extending at an angle to the longitudinal axis. As a result, the carrier housing of the lifting means within an angular range corresponding to "normal" Zugrichtungen without the active surface of the support surface of the federal system comes to rest, the attachment part of the stop means, while exceeding the angular range, ie at a larger angle to Longitudinal axis of the anchor part extending tensile direction, the desired supporting effect comes about by concerns the effective surface of the support surface of the federal government.

The invention with reference to an embodiment shown in the drawing will be explained in detail. Show it:

1 an approximately obliquely drawn in natural size of a practical embodiment, perspective oblique view of the stop means for an embodiment of the load lifting system according to the invention;

2 one half in longitudinal section drawn side view of the lifting means of 2 ;

3 an enlarged drawn part of the section in 2 district of the lifting gear marked III;

4 a front view of the embodiment of the load lifting system in the state of entanglement on a schematically indicated load, wherein a pulling direction along the axis of the stop means is shown;

5 a sectional view corresponding to the section line VV of 4 ;

6 an oblique perspective view of the embodiment of the load lifting system in the state of entanglement, wherein a pulling direction along the outside of the load is shown;

7 an oblique perspective view of the embodiment in the state of entanglement with the separately shown stop means, wherein also a pulling direction is shown, which is perpendicular to the longitudinal axis of the stop means;

8th a sectional view corresponding to the section line VIII-VIII of 9 , and

9 a top view of the representation of 6 ..

The slinging invention, as a whole with 1 designated and in the 1 to 3 is shown separately, has the shape of a so-called ball head with a provided for the entanglement with a lifting means attachment part 3 and an anchor part 5 , which has an externally threaded anchoring shaft 7 forms, which has a longitudinal axis 9 Are defined. At the plant part 3 facing the end of the anchor part 5 closes a support member in the form of the anchoring shaft 7 radially expanding federal 11 in turn, from the plant part 3 over a neck part 13 is separated, that between the covenant 11 and the investment part 3 forming a constriction with a concave curvature that conforms to the convex curvature of the spherical abutment 3 followed. The diameter of the spherical shape of the plant part 3 corresponds approximately to one and a half times the diameter of the anchoring shaft 7 , The through the neck part 13 formed constriction reduces the diameter approximately to that of the anchoring shaft 7 , The outer diameter of the federal government 11 is slightly more than double the anchoring shaft 7 ,

The to the anchoring shaft 7 adjacent bottom of the covenant 11 defines one to the longitudinal axis 9 vertical radial plane 15 ( 2 and 3 ), whose radially outer edge region is a fixing surface 17 forms, with which the federation 11 on the outside of the in 1 to 3 not shown load 41 is present when the anchoring shaft 7 in the load 41 screwed in and the slings 1 therefore at the load 41 is fixed. At the radially inner edge of the fixing surface 17 forms the bottom of the covenant 11 a slight depression 19 so that the fixing surface 17 in the form of a flat ring edge at the bottom of the covenant 11 protrudes.

As the 2 and 3 most clearly show that the plant part 3 facing top of the covenant 11 as well as the adjacent neck part 13 a special shaping to work in conjunction with a lifting device 37 ( 4 to 9 ) a supporting action between an active surface 63 of the lifting means 37 and the federal government 11 the lifting gear 1 to build. For this purpose, the federal government 11 on its upper side a support surface 29 on, whose shape is the clearest 3 is apparent. The support surface 29 has a convex curvature, which conforms to the concave curvature of the neck portion 13 which in turn merges into the convex curvature of the spherical transfer surface 25 of the plant part 3 passes. At the radially outer region forms the support surface 29 a convex curved edge area 27 so that the support surface 29 in the top of the covenant 11 in an axial recess 31 ( 3 ) goes to the radially outward of the opposite to the recess 31 upstanding border area 27 followed.

The design of the federal government is completed 11 by peripherally located configurations for cooperating with screwing rotary tools, such as flats 33 for the formation of an outer polygon or blind holes 35 for pen keys.

The 4 to 9 show the load lifting system in an operating condition in which the associated lifting means 37 with the lifting gear 1 is hooked and being over a pull chain 38 from the lifting device, not shown (crane or the like), a lifting force is effective, in the representation of the 6 to 9 on the lifting gear 1 with perpendicular to the longitudinal axis 9 extending pulling direction attacks, so it is a diagonal train, wherein the pulling direction parallel to the outside 39 the only schematically indicated load 41 is directed. In contrast, the pulling direction runs at the 4 and 5 in the direction of the longitudinal axis.

The lifting equipment 37 has one at its top 43 to the chain 38 attached carrier housing 45 on, in which the plant part 3 and the neck part 13 the lifting gear 1 can be received and in the manner of a so-called ball carrier on the inside concave curved surface parts having a support surface 47 ( 4 and 9 ) for interaction with the transfer surface 25 at the plant part 3 the lifting gear 1 form. The carrier housing 45 points in an end wall 49 an opening 51 and in a bottom part of a slot 53 for the introduction of the plant part 3 and the neck part 13 on. To an unintentional leakage of the system part 3 through the opening 51 To prevent a not shown in the figures fuse is provided by means of a lateral handle 57 is controllable in the release order.

How out 5 and 8th clearly removable, surrounds the back wall 59 of the ball carrier housing 45 the inner recording room 61 in a curved course, the lower, free end of the rear wall 59 at a distance from the bottom part of the ball carrier housing 45 ends. This distance is chosen so that at tensile directions, the direction of the longitudinal axis 9 of the anchoring shaft 7 the lifting gear 1 do not deviate by a large angle ( 4 and 5 ), the ball carrier housing 45 around the plant part 3 the lifting gear 1 is pivotable like a ball. In the case of a diagonal pull, which exceeds a respective angular range, in particular in a diagonal pull, as in the 6 to 9 with perpendicular to the longitudinal axis 9 is shown extending pulling direction, enters the rear wall 59 of the ball carrier housing 45 with its end edge, which has an effective area 63 forms into the in 8th illustrated support position on the support surface 29 of the federal government 11 , While in a diagonal pull, without the in 8th shown supporting position of the active surface 63 on the support surface 29 would be done, the total traction of the chain 38 because they are exclusively on the plant part 3 the lifting gear 1 would come into effect, a corresponding bending moment on constricted neck portion 13 generates, provided in the invention support the effective area 63 the back wall 59 at the federal government 11 to a considerable reduction of the bending moment on the neck part 13 because a force component as part of the traction of the chain 38 over the effective area 63 the back of the case 59 as a compressive force on the support surface 29 on top of the covenant 11 is transmitted and by the federal government 11 via the fixing surface located at the bottom 17 at a radial distance from the longitudinal axis 9 of the anchoring shaft 7 in the load 41 is initiated. In the invention, therefore, the structural load of the sling 1 both in the necked neck part 13 as well as in the entire anchor part 5 significantly reduced when working with strong diagonal pull.

By doing that the top of the covenant 11 a support surface 29 owns with specially arched molding, forms the top of the covenant 11 like in the 1 to 3 is clearly visible, between the curved end portion of the support surface 29 and the neck part 13 an axial recess 31 extending radially outward from the upstanding edge 27 is limited, so that the initiation of the supporting force in the form of an axially acting force component in the covenant 11 is favored.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• GB 2261651 A [0002]

Claims (10)

Slings ( 1 ) with an anchor part ( 5 ), one with a load to be moved ( 41 ) connectable or linked anchoring 7 ) and one of the load ( 41 ) remote unit ( 3 ), wherein between the anchor part ( 5 ) and the plant part ( 3 ) a supporting part ( 11 ) arranged by the plant part ( 3 ) with a predetermined distance over a neck part ( 13 ) and at the load ( 41 ) with a fixing surface ( 17 ) at the load ( 41 ), the plant part ( 3 ) for the attack of a support surface ( 47 ) on a carrier housing ( 45 ) of the lifting means ( 37 ) a transfer surface ( 25 ) having at least partially convex or circumscribed by a convex curved envelope area areas, characterized in that the supporting part ( 11 ) at its fixing surface ( 17 ) opposite, in the direction of the neck portion ( 13 ) facing top a support surface ( 29 ), on which in a diagonal pull of the lifting means ( 37 ), in which the pulling direction from the longitudinal axis ( 9 ) of the anchor part ( 5 ) deviates by a predetermined angle, an effective area ( 63 ) of the attacking lifting device ( 37 ) exerts a supporting force which at least partially exceeds that on the outside of the load ( 41 ) adjoining fixing surface ( 17 ) of the supporting part ( 11 ) in the load ( 41 ) is initiated. Lifting means according to claim 1, characterized in that the anchor part ( 5 ) one with the load ( 41 ), preferably with the load ( 41 ) bolted anchoring shaft ( 7 ) having. Slings according to claim 2, characterized in that the supporting part of the sling ( 1 ) the shape of a radial extension at the end of the anchoring shaft ( 7 ) federal ( 11 ), whose attached to the anchoring shaft ( 7 ) adjacent lower side defining a radial plane locking surface ( 17 ). Lifting means according to claim 3, characterized in that the support surface ( 29 ) at the top of the covenant ( 11 ) one in the radially outer edge region ( 27 ) of the Confederation ( 11 ) has convex curvature, to which a concave curvature (radially inwardly) 21 ), which in the same direction curvature of the neck portion ( 13 ) passes over. Lifting means according to claim 4, characterized in that on the support surface ( 29 ) subsequent concave curvature in the top of the covenant ( 11 ) an axial recess ( 31 ) formed between the neck portion ( 13 ) and the high, radially outer edge area ( 27 ) is located. Lifting system for use with a stop center according to one of claims 1 to 5, characterized in that the lifting means ( 37 ) a carrier housing ( 45 ), in which the plant part ( 3 ) and an adjoining part of the neck part ( 13 ) of the lifting means ( 1 ) are receivable and the inside has concave curved surface parts, the support surface ( 47 ) for the interaction with the transfer surface ( 25 ) at the plant part ( 3 ) of the lifting means ( 1 ) form. Load lifting system according to claim 6, characterized in that the carrier housing ( 45 ) a recording room ( 61 ), which in the state of entanglement with the stop means ( 1 ) Parts of the system component ( 3 ) and the neck part ( 13 ) surrounds. Load lifting system according to claim 7, characterized in that the carrier housing ( 45 ) on wall parts of the receiving space ( 61 ), which in the hooked state the plant part ( 3 ) of the lifting means ( 1 ) partially surround the support surface ( 47 ) and in an end wall an opening ( 51 ) and in a bottom part of a slot ( 53 ) for the introduction of the asset ( 3 ) and the neck part ( 13 ) leaves free, and that at the edge portion adjacent to the bottom part of one of the opening ( 51 ) opposite back wall ( 59 ) of the carrier housing ( 45 ) for the interaction with the support surface ( 29 ) of the supporting part ( 11 ) of the lifting means ( 1 ) provided effective area ( 63 ) is formed. Load lifting system according to claim 8, characterized in that the active surface ( 63 ) rear wall ( 59 ) of the carrier housing ( 45 ) in an arcuately curved course a part of the recorded system part ( 3 ) and in one the slot ( 53 ) of the bottom part of the carrier housing ( 45 ) bordering on the rear ends, which with one of the curvature of the support surface ( 29 ) on the Bund ( 11 ) of the plant part ( 3 ) adapted curvature the effective area ( 63 ). Lifting system according to claim 9, characterized in that the rear wall ( 59 ) at a distance from the bottom part of the carrier housing ( 45 ), at which the effective area ( 63 ) in the direction of the longitudinal axis ( 9 ) of the anchor part ( 5 ) extending pulling direction at a distance from the support surface ( 29 ) of the Confederation ( 11 ) and at one at an angle to the longitudinal axis ( 9 ) extending pulling direction on the support surface ( 29 ) is present.

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